CN101600982B

CN101600982B - Head-mounted display device for generating reconstructions of three-dimensional representations

Info

Publication number: CN101600982B
Application number: CN2007800458889A
Authority: CN
Inventors: 诺伯特·莱斯特
Original assignee: SeeReal Technologies GmbH
Current assignee: SeeReal Technologies GmbH; SeeReal Technologies SA
Priority date: 2006-12-12
Filing date: 2007-12-04
Publication date: 2011-07-13
Anticipated expiration: 2027-12-04
Also published as: TWI376527B; TW200839290A; DE102006059400A1; US20100097671A1; JP2010512551A; US8547615B2; KR20090089412A; WO2008071588A1; KR101398150B1; CN101600982A; DE102006059400B4

Abstract

The invention relates to a head-mounted display device (1) for generating reconstructions of three-dimensional representations comprising a frame (2), in which at least one light source (13, 14), at least one optical system (12, 15) and at least one encodable light modulator (16, 17) are situated, wherein the light modulator with an encoding of a wavefront of the three-dimensional representation in the encoding area is positioned at the place of an observer window (18, 19) defined in an observer plane (4) or the light modulator with an encoding of a hologram of the wavefront of the three-dimensional representation in the encoding area is positioned in the region closely in front of the observer window for transforming the hologram into the observer window, such that when the light modulators are illuminated, complex wavefronts of the three-dimensional representation are situated in the observer window and the reconstruction of the three-dimensional representation is visible in a visual cone spanned by the observer window and the light modulator.

Description

Generate the head-mounted display apparatus that three-dimensional body is rebuild

Technical field

The present invention relates to a kind of head-mounted display apparatus that 3-D view (object and scene) is rebuild that is used to generate, it comprises the head-wearing device of the similar helmet or safety goggles, have at least one sidepiece anterior and two settings spaced apart, its middle front part is with respect to the position of eyes.

Background technology

No. 1505873 patent documents of GB have been introduced a kind of helmet-type optical display, be used for carrying out visual imaging to the observer who wears it, within the anterior observer's of the helmet the visual field reflection eyepiece is housed, the conventional hologram that generates forms on eyepiece or is transmitted by eyepiece.Rebuild any one sidepiece that light source can be placed in the helmet, and keep at a certain distance away with the hologram that reflects, if this distance makes that hologram is illuminated, the image on it only can be reconstructed into little view in the observer visual field.A problem of this structure is: visual reconstruction only is confined to small size view, so the helmet-type optical display can not be used for the coding of large-sized object and visual, let alone film scene.

The US5257094 patent document has been introduced a kind of helmet-type display device, this device comprises optical element such as catoptron and beam splitter, and anterior holographic element, purpose is to improve the permeability of amount that the outside from two miniature cathode-ray tube (CRT)s of sidepiece provides and additional display message.This display device also comprises the condenser lens of combination.Be designed so that to comprise the weight saving of the head-wearing device of display device at the information display screen of miniature cathode-ray tube (CRT) and the optical link between corresponding observer's pupil.

One of problem of this device is that although made great efforts to reduce the weight that is installed in the display apparatus assembly on the head device, because head-wearing device is totally still very heavy, the observer must bear quite heavy load at head.Display device is subjected to the restriction of giving fixed structure of prefabricated optics and hologram element.

The US4933755 patent document has been introduced a kind of wear-type 3 d display device, and this device is respectively left eye and right eye imaging on LCD with left and right stereo-picture.Thereby can watch the three-dimensional video-frequency image, and not be created in the optical fractionation problem of right and left eyes image common in the straight watching display.

In addition, the US6674493 patent document has been introduced a kind of head-mounted display apparatus, and this device provides common LCD for eyes, presents stereo-picture for eyes continuously by active formula beam splitter.

One of problem of three-dimensional head-mounted display apparatus is, although they can generate stereo-picture, but this stereo-picture has represented whole shortcomings that stereo-picture generates, particularly eyes are to the possibility of the adapt disappearance of dark dimension object, as showing in holographic display, wherein the reconstruction of three-dimensional body is based on the video holograms that computing machine generates.

In addition, the DE102004063838A1 patent document has been introduced a kind of method and apparatus that is used to calculate the video holograms that is generated by computing machine, the reconstruction of the hologram of wherein encoding on photomodulator can be seen from observer's window, has some and the identical complex amplitude and the PHASE DISTRIBUTION of light that will be projected same position by real three-dimensional scenic in these observer's windows.The observer watches the reconstruction of three-dimensional scenic by observer's window, and observer's window of two separation is arranged usually, and one is used for left eye, and one is used for right eye.

In fact the calculating of wave front finished by following steps in observer's window: at plane section, promptly in a truncate planar space three-dimensional scenic is sliced into section, propagate by the light of conversion Calculation, and they are added up in observer's window from these planes to viewing plane.The size of observer's window may be limited to an eye or an oculopupillary size.

During rebuilding, is essential wave front for making a certain 3-D view (object and/or scene) for visible in observer's window, can generate by two kinds of different modes: first, complex wave front by 3-D view in the encoded light modulator directly generates, wherein photomodulator is positioned at outside the sightingpiston, and be projected onto separately observer's window, perhaps, second, by the transform coding with the complex wave front of 3-D view is hologram on the photomodulator, and the complex wave front is reversed the observer's window indirect change to separately generate, wherein photomodulator is still beyond sightingpiston.

In both cases, information encoded is all changed to observer's window by optical system projection or reverse on photomodulator, and optical system refers to screen.Usually, wish to realize big as far as possible screen area, as 20 inches or bigger, and observer's distance, just as tabletop display or televisor.In this zone or be created on the conversion of the complex wave front of encoding on the photomodulator, as the previous case, or generate the expanded view picture of the hologram of encoding on the photomodulator, as latter event,

In both cases, plane section is all decided by the observer's who watches screen surface visual angle.The observer from the distance of screen surface just as the distance of using tabletop display and televisor.In two kinds of hologram straight watching displays, the observer can move with respect to screen surface, can watch the reconstruction of 3-D view from different positions.

Known hologram straight watching display has for example following problem: require observer's position of window to change along with moving of observer, promptly necessary tracing study person's window, and all necessary equipment are provided for this reason, as the assembly of detection pupil position and the optical device of tracing study person's window.In addition, a big screen area will be arranged also, this makes the manufacturing relative complex and the costliness of hologram display device.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of being used to generate the head-mounted display apparatus that 3-D view is rebuild, above-mentioned head-mounted display apparatus is designed to be easier production, and is also more cheap.

Goal of the invention " is used to generate the head-mounted display apparatus that 3-D view is rebuild; comprise the framework that is similar to the helmet or safety goggles; this framework has a front portion and two sidepieces that keep at a certain distance away at least; anterior relevant with eye position; that design has at least one light source (13; 14), at least one optical system (12,15 by means of technical characterictic; 46,47) and at least one photomodulator that can be encoded (16,17; 31,32; 33,34; 41,42; 52), the photomodulator that coded faces has a 3-D view wave front coding is positioned at observer's position of window of the qualification of viewing plane (4), perhaps the coded faces photomodulator that has a hologram coding of 3-D view wave front is positioned near observer's window (18,19) region in front, so that hologram is transformed into observer's window, make its size will conform to the part of pupil (20, the 21) moving range of each eye (7,8) at least, photomodulator (16,17; 31,32; 33,34; 41,42; 52) linking to each other with code device (26), is that coded faces is calculated wave front or hologram, photomodulator (16,17 with the cause 3-D view; 31,32; 33,34; 41,42; 52) can directly be encoded, if photomodulator (16,17 like this; 31,32; 33,34; 41,42; 52) be illuminated, the complex wave front of 3-D view will appear in observer's window (18,19), be positioned near under the situation of observer's window (18,19) region in front at photomodulator, in rebuilding plane section (60,63), can see the reconstruction (61) of 3-D view, it extends in observer's window (18,19) and photomodulator (16,17; 31,32; 33,34; 41,42; 52) between, the size of person's window (18,19) according to the observation, have at least an element (37,38,45) can be placed on viewing plane (4) near be used to suppress crosstalking of polarisation between two (7,8) " be achieved.

According to above-mentioned technical characterictic, be used to generate the framework that head-mounted display apparatus that 3-D view rebuilds comprises the similar helmet or safety goggles, two sidepieces that this framework has a front portion at least and keeps at a certain distance away and be provided with, its middle front part is with respect to the position of eyes, design has at least one light source, at least one optical system, and at least one photomodulator that can be encoded, the photomodulator that coded faces has a 3-D view wave front coding is positioned at observer's position of window of the qualification of viewing plane, perhaps the coded faces photomodulator that has a hologram coding of 3-D view wave front is positioned near observer's window region in front, so that hologram is transformed into observer's window, make its size will conform to the part of the pupil moving range of each eye at least, photomodulator links to each other with code device, with the cause 3-D view is that coded faces is calculated wave front or hologram, photomodulator can directly be encoded, if photomodulator is illuminated like this, the complex wave front of 3-D view will appear in observer's window, in rebuilding plane section, can see the reconstruction of 3-D view, it extends between observer's window and the photomodulator, the size of person's window according to the observation, have at least an element can be placed on viewing plane near be used to suppress crosstalking of polarisation between two.

Here, " view (representation) " is a collective term, comprises the space object and the spatial scene that are in rest position and mobile status in true environment, film, the video record.

The coded faces of photomodulator places observer's window of viewing plane, it can be encoded with the complex value of the wave front that comprises amplitude and phase place, perhaps use the value be derived from the complex value that code device provides to encode, wherein, photomodulator is placed directly in observer's window of left eye or before observer's window, and another photomodulator is placed directly in observer's window of right eye or before observer's window.

Encode for the complex value to the wave front of observer's window, the combination of amplitude modulated light modulator and/or phase-modulated light modulator can be provided, it links to each other by beam splitter or links to each other by the mode that a photomodulator projects the another one photomodulator.

The amplitude modulated light modulator can for example place outside the viewing plane of observer's window near zone, the phase-modulated light modulator overlapping with the modulation image of amplitude modulated light modulator can be placed directly in viewing plane, wherein, the coded faces of amplitude modulated light modulator is projected onto corresponding phase-modulated light modulator as modulation image by means of the optical projection system.

On the other hand, amplitude modulated light modulator and phase-modulated light modulator also can be placed on the contrary.

It is consistent with the whole moving range of eye pupil that the coded faces of photomodulator can be defined as its size, and as seen the reconstruction of 3-D view continues when moving with convenient pupil.

The coded faces of photomodulator preferably can be identical with pupil surface area size.

Photomodulator selectively has coded faces continuous or pixelation, and pixel is the square measure that amplitude and/or phase place can be encoded.

If only use a photomodulator at opticator, just photomodulator is placed position across central shaft, light source and optical system place before this photomodulator, beam splitter and two catoptrons are being placed in the photomodulator back, two catoptrons equidistantly are placed on the both sides of beam splitter and tilt with respect to the axis of pupil, before being positioned at viewing plane, by means of optical system and beam splitter, the coded faces of photomodulator is switched to two observer's windows, conversion equipment places on the light path, and above-mentioned conversion equipment is transformed into left and right sides observer's window with the complex information that given frequency alternately will alternately appear at the coded faces of photomodulator.

Conversion equipment can be designed as the form of the inflector assembly that is used for light beam, passes through frequency control by code device.

Conversion equipment can be positioned on the light path of unsegregated light path or separation.

In light path, have: the optical system of at least one light source, at least one photomodulator, lamp optical system form and along with the generation of wave front in observer's window, can have a element or an assembly at least, prevent to crosstalk thereby be used between two, intercepting the diffraction interference as aperture diaphragm.

Angle sensing element passive or the active optical component form places between photomodulator and the eyes, and said elements only allows launches into by photomodulator that a low-angle light passes through.

According to the present invention, if the opticator of second display device has used two photomodulators, just can place filter element or aperture diaphragm, it is on the one hand between a photomodulator and observer's window, between another photomodulator and another observer's window, provide a kind of compact design on the other hand with short-focus lens.

Code device can comprise calculation element and memory bank and programming tool at least, is used to carry out the calculating of the individual pixel coded message of photomodulator coded faces.

The photomodulator that is used for an eye or eyes links to each other with at least one light source, with abundant coherent light direct light modulator.If wish color is rebuild, light source can comprise three sub-light sources, sends green, redness, blue color spectrum respectively, can selectively make up by the mode of time-division multiplex.

Framework can comprise at least one supporting member.Transmission and catoptrics part can place the front portion, use assembly that opticator is fixedly secured on framework, mainly are to use mechanical component and supporting member.

Framework can be selected the helmet, safety goggles or the fulcrum arrangement that is used on a small quantity the parts of opticator at least is installed, display device can select the form (display of wearing at face) of safety goggles or by the helmet with firm fixed form supporting (helmet-mounted display) or with the mode that moves and the helmet and/or observer's head firmly link to each other (head mounted display).

Can between photomodulator and the framework supporting member of at least one, adjusting gear be set, can between photomodulator and corresponding light source, locking device be set, by adjusting gear and locking device, photomodulator can be adjusted and lockable with respect to the axis of viewing plane and/or display device and the pupil axis parallel with the axis of display device with the respective optical part that has light source and optical system.

Between adjusting gear, locking device, opticator and supporting member, mainly use mechanical attachment to adjust their position, light source is connected with electric supply installation with code device by being electrically connected cable with photomodulator.

If the observer will firmly be worn on the head according to head-mounted display apparatus of the present invention, such as detecting head and eyes physical location and can becoming unnecessary at some complex appts of viewing plane tracing study person window, because head-mounted display apparatus can move automatically along with moving of observer, its position with respect to eyes also can remain unanimity.

But, also be possible to observer's mobile making a response, at least one the sensor such as installing on framework detects moving of head, and the signal of generation is transmitted to code device, so in photomodulator amended content is encoded.In frame area, just at least one sensor can be arranged, its change according to its visual angle when observer's moving-head sends a signal to code device, so that revise the information of encoded light modulator.

Framework can be selected in conjunction with at least one sound signal device, the output of sound signal and the code synchronism conversion of wave front in photomodulator separately.

In second display device of the present invention, the compute classes of the hologram of encoding on the photomodulator be similar to prior art documents or before mode described in the patented claim carry out-utilize cross section, section, be transformed into observer's window and modulator plane-but describe with these and opposite to be, it is designed to be fit to the display device of head mounted display or close eyes, promptly has only very little distance between photomodulator and observer's eyes.

In display device, the advantage that not only has above-mentioned hologram to calculate is promptly compared with known hologram display device, makes to the requirement of the resolution of photomodulator observer's window limit to an eye very low, and its optical devices only comprise a few widgets, and are simple relatively.

According to the present invention, in calculating and coding method, mainly contain two kinds of head-mounted display apparatus to wave front and hologram use:

In first head-mounted display apparatus, photomodulator is set directly in the viewing plane, perhaps, normally several centimetres, photomodulator is projected viewing plane by very short distance.The complex value of wave front is by the write direct coded faces of photomodulator of code device in observer's window.Do not need the extra conversion in viewing plane in this case.

In contrast, in second head-mounted display apparatus, the complex value of the wave front that is encoded as hologram is switched to viewing plane from the plane of photomodulator, and a bit of at interval distance of photomodulator and viewing plane is provided with preferably several centimetres.

In addition, can also be when computed hologram in conjunction with some other known methods, such as the method for directly calculating subhologram for the every bit of rebuilding on the common plane, can also use look-up table for another example, all subholograms are added up so that create a hologram that gathers.

Concerning the coded faces of photomodulator, can carry out the calculating of subhologram.But, can carry out calculating equally on different planes, all subholograms are added up is transformed into the coded faces of photomodulator separately then.If single subhologram typically all takies a large amount of zones in the coded faces of photomodulator, may make to calculate to become complicated, if but single subhologram is littler on different planes, and can make calculating simpler.

Description of drawings

Below by some embodiment and accompanying drawing the present invention is done more detailed description, wherein:

Fig. 1 is a vertical view, schematically shows according to first head-mounted display apparatus of the present invention, and it has two photomodulators, is arranged in observer's window of viewing plane, is close to the front of pupil;

Fig. 2 schematically shows the opticator according to the display equipment of Fig. 1, the phase-modulated light modulator is arranged on pupil the place ahead of each observer's window of viewing plane, the amplitude modulation modulator is arranged in observer's window front region, and is projected onto on the corresponding phase-modulated light modulator;

Fig. 3 schematically shows the light modulator device according to Fig. 1, and two photomodulators are arranged, and is arranged on observer's window of viewing plane, is close to the pupil front, and is identical with the pupil size;

Fig. 4 schematically shows the light modulator device according to Fig. 1 opticator, and two photomodulators are arranged, and is arranged in observer's window of viewing plane, is close to the front of pupil, and the angle Selection element is arranged between each photomodulator and pupil;

Fig. 5 schematically shows according to second kind of head-mounted display apparatus of the present invention, reduce to only surplus opticator, two photomodulators are arranged, be arranged on zone near observer's window front portion, but outside at viewing plane, be used for preventing that aperture diaphragm that polarisation is crosstalked is arranged between photomodulator and the pupil between two parallel light paths in the zone, and and light path parallel;

Fig. 6 schematically shows according to principle shown in Figure 5 and has photomodulator and have light source and the previous section of beam splitter, photomodulator is positioned near outside the regional observation face of observer's window, and beam splitter is used for photomodulator is alternately projected observer's window;

Fig. 7 represents a plane section, stretches from observer's window when the photomodulator with the different distances that vary in size arrives observer's window with the three-dimensional body image viewing;

Fig. 8 represents to come from two different slightly plane sections that are used for eyes of two observer's windows, and above-mentioned plane section departs from the pupil axis, is used for one to the different shared photomodulator of observer's distance;

The plane section that Fig. 9 represents, using the little photomodulator that separates near every each preocular zone, identical three-dimensional body view is that every eye has obtained identical plane section, as using single big photomodulator at a distance, shown in Fig. 7 or 8.

Embodiment

Fig. 1 schematically shows first head-mounted display apparatus 1 that is used to generate the 3-D view reconstruction according to of the present invention, said apparatus comprises the framework 2 of the similar helmet or safety goggles, it has a front portion 3 and two sidepieces 5,6 that keep at a certain distance away and be provided with at least, anterior 3 is relevant with the position 7,8 of eyes, and framework 2 comprises a plurality of supporting members 9,10,11.

According to the present invention, anterior 3 will design two light sources 13 at least, 14, two corresponding optical system 12,15 and two photomodulators 16 that can use complex value information coding, 17, as shown in Figure 1,

photomodulator

16,17 are positioned at observer's window 18 of qualification, on 19 the position, perhaps be in as shown in Figure 2 near observer's window 18, in 19 region in front so that project observer's

window

18,19, observer's

window

18,19 be defined as its size at least will with two 7,8

pupil

20,21 moving range is corresponding,

photomodulator

16,17 link to each other with code device 26, the wave front of 3-D view is calculated in code device 26,

photomodulator

16,17 can be encoded with wave front, thereby at observer's window 18, be useful on the complex wave front that vision is rebuild in 19.

Adjusting gear 22,23 can be each positioned between the

photomodulator

16,17 and supporting member 9,10,11 of framework 2, and locking device 24,25 can be each positioned between

photomodulator

16,17 and the light source 13,14.

By means of adjusting gear 22,23 and locking device 24,25,

photomodulator

16,17 and light source 13,14 and optical system 12,15 can be adjusted and locking with respect to the

axis

29,30 of the axis 28 of viewing plane 4 and/or display device and parallel with it pupil.

On the one hand adjusting gear 22,23 and locking device 24,25 mainly are the connecting elements (representing with solid line) of machinery with some are arranged between optical system 12,15 and the supporting member 9,10,11 on the other hand, and light source 13,14 is connected (dot) with code device 26 and electric supply installation 27 by the electrical connection cable with

photomodulator

16,17 simultaneously.

Code device 26 comprises calculation element, memory bank, programming parts at least, in order to calculating be used to the to encode information of each pixel of coded faces of corresponding

light modulator

16,17.

As shown in Figure 1, in first display device 1 according to the present invention,

photomodulator

16,17 is arranged in observer's

window

18,19 of viewing plane 4.Complex value from the wave front of encoding device 26 can be written in the coded faces of two

photomodulators

16,17, first photomodulator 16 directly places first observer's window 18 to be used for left eye 7, the second photomodulators 17 directly to place second observer's window 19 to be used for right eye 8.

Encode for the complex value to wave front, the combination of amplitude modulation and/or phase-modulated light modulator can be provided, it links to each other by for example beam splitter or by the projection of photomodulator on another photomodulator.But, this depends in the code device 26 design to the opticator of desired utilization of existing program means and display device 1.

For example, as shown in Figure 2, by means of optical system 46,47, amplitude modulated light modulator 31,32 can be projected onto on the phase-modulated light modulator 33,34, phase-modulated light modulator 33,34 directly places sightingpiston 4, and modulation image 35`, the 36` of amplitude modulated light modulator 31,32 equally also place sightingpiston 4.The coded faces 35,36 of amplitude modulated light modulator 31,32 places the zone near observer's

window

18,19, but beyond viewing plane 4.The coded faces 35,36 of amplitude modulated light modulator 31,32 is illuminated by light source 13,14 by respective optical illuminator 58,59.

If can not use the combination of the photomodulator or the photomodulator that can write complex value fully, also can use the complex value of approximate mode reconstructing wave front, for example, can be by being written to the simple PHASE DISTRIBUTION in the phase-modulator.This can produce deviation between the actual value of observer's

window

18,19 and ideal value, particularly with the hologram time-out of encoding, this can cause rebuilding makes mistakes.In conjunction with the method for optimizing this cataloged procedure, that is, common practical approach in phase hologram as process of iteration, just might realize correction.

Being used for two 7,8

photomodulator

16,17,31,32,33,34 is illuminated by abundant coherent light.Laser beam can be used as illustration by the size that optical lighting system 58,59 is widened to

photomodulator

16,17,31,32,33,34.Can also realize colored the reconstruction by means of universal method as the time division multiplexing of red, green, blue light source.The optics that is used for eyes 7,8 can mainly comprise, light source 13,14, and light projection system 12,15,

photomodulator

16,17, each of light source 13,14 can comprise three sub-light sources, such as LEDs, so that can realize colored reconstruction.

In addition, both can make the perspective formula display device according to the present invention and also can make reflective display.By means of mechanical component-supporting member 9,10,11, have that this device of few components can be firm be installed on the framework as the helmet or safety goggles, observer's head or fastening installation frame.The size of the size of

photomodulator

16,17 and observer's

window

18,19 preferably will be able to cover the whole moving range of the

pupil

20,21 of eyes 7,8, so that also can see image reconstruction consistently when

pupil

20,21 moves.

Another embodiment according to first display device of the present invention, as shown in Figure 3,

photomodulator

16,17 can have

picture pupil

20,21 areas coded faces of a size, wherein

pupil

20,21 also has certain moving, the observer watches by

photomodulator

16,17 separately, can not see any reconstruction of 3-D view.

Fig. 5 represents second display device 40 that is used to generate three-dimensional body and scene rebuilding according to of the present invention, above-mentioned display device reduces to has only opticator, comprise the framework that is similar to the helmet or safety goggles, at least two sidepieces that have a front portion and keep at a certain distance away, anterior position with respect to eyes, similar with first display device 1 of the present invention.

Corresponding anterior 3 have been designed to two light sources 13,14, two optical systems 43,44 and can use two photomodulators 41 of complex value information coding, 42, photomodulator 41,42 are positioned at the outside of sightingpiston 4, near observer's window 18, the place ahead of 19, observer's window be defined size in case at least with eyes 7 separately, 8 pupil 20, the part of 21 moving range conforms to, photomodulator 41,42 link to each other with the code device 26 that is calculated wave front by 3-D view, photomodulator 41,42 can encode with the hologram of these wave fronts, by optical system 43,44 holograms are transformed into corresponding observer's window 18, in 19, so that at observer's window 18, be useful on visual complex value wave front in 19.

The mechanical framework 2 that has optional supporting member 9,10,11 and adjusting gear, locking device and electric supply installation 57 can be designed to first display device 1 according to the present invention similar.

As described in the DE102004063838A1 patent document, computed hologram in code device 26, in viewing plane 4, carry out conversion from the 3-D view to the section and subwave front add and.If photomodulator is positioned at beyond the viewing plane 4, and wave front is encoded as hologram, then only need to add and wave

front

16,17 plane change from viewing plane 4 to photomodulator.

The observer who watches by observer's

window

18,19 in the zone that limits by plane section 60, see 3-D view-scene-reconstruction, as shown in Figure 7, wherein the drift angle of this plane section 60 depends on the pel spacing of photomodulator.

Now, for device of the present invention is compared with the device of patented claim in the past, provide following numerical example: such as, the characteristics of Visual Display Unit are that its viewing area is 430 * 320mm2, pel spacing is 207 μ m, and all pixel all is used as coding plural number, 2048 pixels of every row here.This device produces the wide observer's window of about 6mm at a distance at 2m.

On the contrary, according to the present invention,, then under coherent illumination, will create the order of diffraction that 430mm is wide at 2 meters far away if a wide 6mm has the little photomodulator of 2048 pixels (being that pel spacing is 3 μ m) to be placed in observer's window of display device equally.So identical plane section 60 stretches between diffraction image and observer's window.This means, created identical visual reconstruction space, just as what create in the Visual Display Unit that has big screen area.Wherein the edge angle of the order of diffraction only has the several years.

If the photomodulator of pixelation is used to coding, can cause the higher order of diffraction.If do not take to suppress the more measure of high diffracting grade, the wide-angle ghost image of the whole plane section of higher diffraction form can appear in the next door of plane section.This meaning will generating period lasting reconstruction, but spatially separate with desirable reconstruction.If the frequency range that object is rebuild is corresponding limited, will in succession and feel the re-construct of expansion several times, but not overlapping on the single repeated space of rebuilding.

According to the present invention, have following multiple measure to be used to suppress high diffracting grade:

In the part of as shown in Figure 4 display device, for example be that laminar

angle sensing element

37,38 places between the photomodulator 16,17 and eyes 7,8 of 18,19 li of observer's windows, above-mentioned angle sensing element only allows to pass through from the light that photomodulator 16,17 low-angles penetrate, and the light that wide-angle penetrates to not in the eyes 7,8.The advantage of device shown in Figure 4 is very compact.

At opticator shown in Figure 5, photomodulator 41,42 self places outside observer's

window

18,19, and optical system 43,44 is transformed into photomodulator 41,42 in observer's window 18,19.Filter element such as 4-f system (not shown) or as the aperture diaphragm 45 that Fig. 5 shows, places between

photomodulator

16,17 and the observer's

window

18,19, is used for avoiding crosstalking between two 7 of observers, 8.This device is compact to design, uses short focus lens, so that display device 40 can be installed on the framework of the helmet for example, or is worn over as safety goggles on observer's the head.

According to the present invention, as shown in Figure 5, in first embodiment of second head-mounted display apparatus 40, photomodulator 41,42 places near observer's the eyes 7,8, beyond the viewing plane 4, if the employing respective code, photomodulator 41,42 also can be projected onto in observer's

window

18,19.

Fig. 6 represents second embodiment according to second head-mounted display apparatus 50 of the present invention, has only used the photomodulator of a codified, places the position across display device central shaft 28 directions.Light source 13 and optical system 53 place the front of photomodulator 52.Place beam splitter 54 and two catoptrons subsequently, two catoptrons are equidistantly placed on the beam splitter both sides, are positioned at the front of viewing plane 4, and tilt with respect to the

axis

29,30 of pupil.The coded faces of photomodulator 52 is transformed in observer's

window

18,19 by beam splitter 54.Equally also can photomodulator 52 be projected in observer's

window

18,19 by means of optical system (not shown) subsequently.But, when having only conversion equipment 57 to provide wave front corresponding to the mutual sign indicating number on the photomodulator 52 according to right and left eyes 7,8, this display device just can be enabled.

Conversion equipment 57 can be designed to the form of beam deflection device,, is placed on the light path of branch beam optical path or beam splitting by frequency control by code device 26.

The scalability of photomodulator position is discussed now.

With reference to figure 7,8 and 9, if plane section stretches to screen surface from observer's window, and continue to always and exceed display, example as the DE102004063838A1 patent document is described, if and observer's window is positioned at the preceding centre of display, viewing distance for 20 inches screen areas and 2 meters, the viewing distance of 10 feet screen area and 1 meter, the viewing distance of 5 feet screen area and half meter, identical plane section 60 is created in the capital, more than hypothesis photomodulator resolution is identical, and promptly pixel size is different in proportion to observer's distance with photomodulator.

In these cases, photomodulator can be to identical 3-D view coding.From the 3-D view to the section and to calculate to the complex value of the wave front of observer's window be identical.Identical wave front complex value also is provided in observer's window.Unique calculating that is not both the conversion from observer's window to photomodulator use different phase factors according to distance, thereby different complex values is encoded on photomodulator.

Perhaps, such as also can directly calculating and carrying out the conversion of hologram from a screen area to another subsequently, for example, from for 20 inches screen with apart from the screen of the hologram to 10 of two meters distance calculation of observer inch with apart from one meter of observer's hologram.

This explanation also is not suitable for high precision, if use single photomodulator, be that left eye and right eye create two different observer's windows, they all place in the middle of left eye and right eye the distance last (with reference to Fig. 8) of half respectively with respect to the center of screen surface.If all use independently photomodulator every eyes front, as shown in Figure 9, every eyes can obtain identical plane section, just as only using a photomodulator.

Each form of plane section is shown in Fig. 7,8,9.

Fig. 7 represents during 3-D view visual from the plane section 60 of observer's window, use different sizes, with the distance photomodulator 52` also inequality of observer's

window

18,52``, 52```.

Fig. 8 represents to stretch from two 7, the plane section 62,63 of two observer's

windows

18,19 of 8, have and be used for general photomodulator 52`, 52``, the

pupil axis

29,30 of 52```, above-mentioned general photomodulator places on the axis with the different distance of distance observer, is used for reconstruction 61 visual of 3-D view.

Fig. 9 represents two independently little photomodulators 41,42, it places respectively near in eyes 7,8 region in front, identical three-dimensional reconstruction 61 to 3-D view obtains

identical plane section

60,63 for each eyes 7,8, is similar to the plane section that the single big photomodulator 52``` of use shown in Fig. 7 or 8 is obtaining more at a distance.

Use little photomodulator can realize this device, such as LCoS,

little photomodulator

31,32,33,34,41,42,52 places in the nearer distance of viewing plane 4.

It is mentioned to be different from above-mentioned Fig. 1 to 4, and

photomodulator

16,17 places viewing plane 4, or is projected onto in the viewing plane 4.The coded faces of photomodulator is positioned near the observer among Fig. 9, but beyond viewing plane 4.Under this structure, can in succession in sightingpiston 4 produces a plurality of orders of diffraction.If observer's

window

18,19 is bigger than

pupil

20,21, the observer just can't see any periodicity and continues.

The size of observer's

window

18,19 preferably and the size of the moving range of the

pupil

20,21 of eyes 7,8 adapt, if so that observer's pupil he also can remain in observer's

window

18,19 when moving.

If between screen surface and observer's

window

18,19, have the segment distance, then can use different photomodulators to left eye respectively with right eye once more, be equipped with

different plane sections

60,63 in interposition with respect to eyes 7,8.

If the higher order of diffraction of observer's window 18 of left eye 7 arrives right eye 8, then only need the higher order of diffraction of inhibition, vice versa.

Go up on one point, Fig. 5 represents the simple optical arrangement according to second display device 40 of the present invention, comprise: be the used light source 13,14 of each photomodulator 41,42, the optical system of lighting system 43,44 forms, be the used photomodulator 41,42 of every eyes 7,8, as the element or the assembly 45 of resistor, be used for intercepting the light of the higher order of diffraction between two 7,8.Resistor 45 prevents that eyes 7,8 from experiencing the higher order of diffraction of the photomodulator outside the used separately photomodulator.The a kind of of this resistor 45 may be embodied as aperture diaphragm.

If enough compactnesses of design, this display device 40 also can be fixed be assembled in the helmet framework 2 or be worn on the safety goggles framework of observer's head.

The present invention can also realize the simple relatively optical arrangement of head-mounted display apparatus.And, compare with large-scale Visual Display Unit, there is not array of source, unwanted big lens or lens arra throw light on, concerning every eyes, have only single source, perhaps light source of every kind of color, the common diameter of the lens of photomodulator size is 0.5 inch to 2 inches.These all are easy to make.

Can use two-dimensional encoded method without difficulty, do not need to provide promptly can be the photomodulator that every eyes provide a full resolution three-dimensional the separation, and this must provide in Visual Display Unit, does not also need to provide the time division multiplexing of left and right sides hologram.

Nor need be used for the assembly of tracing study person's window to the complex and expensive that changes the observer orientation.

Because light source and photomodulator all are fixed in the helmet or the safety goggles framework, they move with head, therefore do not need to change the position of light source with respect to photomodulator.Therefore, light valve display or the similar device that is used to follow the trail of in Visual Display Unit also become unnecessary.Stronger brightness effects is so also arranged, so for example optical projection system and big screen area have not needed yet.

Prepare to be placed on the framework 2 or 51 of head if display device 1,40,50 is installed in, adjust once at least when display device 1,40,50 is preferably in visual beginning with respect to the position of eyes 7,8.Like this, even if can move, but, just can guarantee that eyes 7,8 remain in observer's

window

18,19 because observer's

window

18,19 moves in the same manner with occiput.Thereby no longer need to detect the extra means of observer position.There has not been the inaccurate puzzlement in tracing study person position yet.

Reference numerals list

1 first display unit

2 frameworks

3 front portions

4 viewing planes

5 left sides

6 right sides

7 right eyes

8 left eyes

9 first supporting members

10 second supporting members

11 the 3rd supporting members

12 first optical systems

13 first light sources

14 secondary light sources

15 second optical systems

16 first photomodulators

17 second photomodulators

18 first observer's windows

19 second observer's windows

20 pupil of right eye

21 pupil of left eye

22 first adjusting gears

23 second adjusting gears

24 first locking devices

25 second locking devices

26 code devices

27 electric supply installations

The central shaft of 28 display device

First axis of 29 pupils

Second axis of 30 pupils

31 amplitude modulated light modulators

32 amplitude modulated light modulators

33 phase-modulated light modulators

34 phase-modulated light modulators

35 coded faces

35 ' modulation image

36 coded faces

36 ' modulation image

37 angle Selection elements

38 angle Selection elements

40 second display device (first embodiment)

41 photomodulators

42 photomodulators

43 the 3rd optical systems

44 the 4th optical systems

45 aperture diaphragms

46 the 4th optical systems

47 the 6th optical systems

50 second display device (second embodiment)

51 second frameworks

52 ' photomodulator

52 " photomodulators

52 " ' photomodulators

53 the 7th optical systems

54 beam splitters

55 first catoptrons

56 second catoptrons

57 conversion equipments

58 first optical lighting systems

59 second optical lighting systems

60 first plane sections

The reconstruction of 61 3-D views

62 second plane sections

63 the 3rd plane sections

Claims

1. be used to generate the head-mounted display apparatus that 3-D view is rebuild, comprise the framework that is similar to the helmet or safety goggles, this framework has a front portion and two sidepieces that keep at a certain distance away at least, anterior relevant with eye position, design has at least one light source (13,14), at least one optical system (12,15; 46,47) and at least one photomodulator that can be encoded (16,17; 31,32; 33,34; 41,42; 52), the photomodulator that coded faces has a 3-D view wave front coding is positioned at observer's position of window of the qualification of viewing plane (4), perhaps the coded faces photomodulator that has a hologram coding of 3-D view wave front is positioned near observer's window (18,19) region in front, so that hologram is transformed into observer's window, make its size will conform to the part of pupil (20, the 21) moving range of each eye (7,8) at least, photomodulator (16,17; 31,32; 33,34; 41,42; 52) linking to each other with code device (26), is that coded faces is calculated wave front or hologram, photomodulator (16,17 with the cause 3-D view; 31,32; 33,34; 41,42; 52) can directly be encoded, if photomodulator (16,17 like this; 31,32; 33,34; 41,42; 52) be illuminated, the complex wave front of 3-D view will appear in observer's window (18,19), be positioned near under the situation of observer's window (18,19) region in front at photomodulator, in rebuilding plane section (60,63), can see the reconstruction (61) of 3-D view, it extends in observer's window (18,19) and photomodulator (16,17; 31,32; 33,34; 41,42; 52) between, the size of person's window (18,19) according to the observation, have at least an element (37,38,45) can be placed on viewing plane (4) near be used to suppress crosstalking of polarisation between two (7,8).

2. display device according to claim 1, it is characterized in that, the coded faces of photomodulator (16,17) that is arranged in observer's window (18,19) of viewing plane (4) can be with the complex value coding that comprises amplitude and phase place, perhaps with the numeric coding that is derived from this tittle that code device (26) provides.

3. display device according to claim 1 and 2, it is characterized in that, for the complex value of wave front in observer's window (18,19) is encoded, amplitude modulated light modulator and/or phase-modulated light modulator are provided, and it links to each other by beam splitter or to project the mode of another photomodulator (33,34) by photomodulator (31,32) continuous.

4. display device according to claim 3, it is characterized in that, on the one hand, amplitude modulated light modulator (31,32) be positioned near observer's window (18,19) zone, but in addition at viewing plane (4), phase-modulated light modulator (33,34) be located immediately in the viewing plane (4), by means of optical projection system (46,47), amplitude modulated light modulator (31,32) coded faces (35,36) can be projected onto corresponding phase-modulated light modulator (33,34) as adjusting image (35`, 36`), perhaps, on the other hand, amplitude modulated light modulator and phase-modulated light modulator are placed conversely.

5. display device according to claim 1, it is characterized in that, the size of the coded faces of photomodulator (16,17) is constrained to the whole moving range size of the pupil (20,21) of eyes (7,8) and conforms to, and perhaps the surface area of the coded faces of photomodulator (16,17) and pupil (20,21) is big or small identical.

6. display device according to claim 1, it is characterized in that, use the photomodulator (52) of a codified at opticator, above-mentioned photomodulator (52) places the position across central shaft (28), light source (13) and optical system (53) place this photomodulator front, beam splitter (54) and two catoptrons (55 are being placed in the photomodulator back, 56), two catoptrons equidistantly are placed on the both sides of beam splitter and with respect to the axis (29 of pupil, 30) tilt, be in the front of viewing plane (4), by means of optical system (53) and beam splitter (54), the coded faces of photomodulator (52) is illuminated and is switched to two observer's windows (18,19), conversion equipment (57) places on the light path of separation, and above-mentioned conversion equipment (57) is transformed into left and right sides observer's window (18 with the complex information that given frequency alternately will alternately appear at the coded faces of photomodulator, 19).

7. display device according to claim 6 is characterized in that, conversion equipment (57) is designed for the form of the inflector assembly of light beam, passes through frequency control by code device (26).

8. display device according to claim 1 is characterized in that, at least one light source (13,14) is arranged, at least one photomodulator (41,42 in light path; 52), lamp optical system (43,44; 53), and, also have at least one element or assembly (45), be used between two (7,8), intercepting diffraction light and disturb as aperture diaphragm along with observer's window (18,19) generation of wave front separately.

9. display device according to claim 1, it is characterized in that, have at least an angle sensing element active or the passive optical component form to place between photomodulator (16,17) and the eyes (7,8), above-mentioned angle sensing element (37,38) only allows and is passed through with the light that low-angle penetrates by photomodulator (16,17), and photomodulator (16,17) directly places observer's window (18,19).

10. display device according to claim 1, it is characterized in that, use two photomodulators (41,42), filter element or aperture diaphragm (45) are on the one hand in the opticator between a photomodulator (41) and the observer's window (18), be on the other hand in the opticator between another photomodulator (42) and another observer's window (19), a kind of compact design with short-focus lens is provided.

11. display device according to claim 1 is characterized in that, code device (26) comprises calculation element, memory bank and programming tool at least, is used for carrying out being used for each photomodulator (16,17; 31,32; 33,34; 41,42; 52) coded faces is carried out the calculating of information encoded.

12. display device according to claim 1 is characterized in that, photomodulator (16,17; 31,32; 33,34; 41,42; 52) link to each other with at least one light source (13,14), this light source is with abundant coherent light direct light modulator (16,17; 31,32; 33,34; 41,42; 52).

13. display device according to claim 1 is characterized in that, need rebuild colour, light source (13,14) comprises three sub-light sources, launches green, red, blue color spectrum respectively, by time division multiplexing it is combined.

14. display device according to claim 1, it is characterized in that, framework (2) comprises at least one supporting member (9,10,11), anterior (3) use transparent and opticator reflection, and this opticator firmly is assemblied on the framework (2,51) with mechanical hook-up and supporting member (9,10,11).

15. display device according to claim 1, it is characterized in that, framework (2,51) be the helmet, safety goggles or the fulcrum arrangement that is used on a small quantity the parts of opticator at least be installed that display device (1,40,50) selectively has the form of safety goggles or firmly links to each other with the helmet and/or observer's head by the firm static form of helmet supporting or in the mode that moves.

16. display device according to claim 14 is characterized in that, adjusting gear (22,23) places photomodulator (16,17; 31,32; 33,34; 41,42; 52) and framework (2; 51) between at least one supporting member (9,10,11), locking device (24,25) places between photomodulator (16,17) and the corresponding light source (13,14), by adjusting gear (22,23) and locking device (24,25), photomodulator (16,17; 31,32; 33,34; 41,42; 52) with have respective optical light source (13,14) and optical system (12,15) part and can adjust and lockable with respect to the axis (28) of viewing plane (4) and/or display device and the pupil axis (29,30) parallel with the axis of display device.

17. display device according to claim 16, it is characterized in that, use mechanical connection between adjusting gear (22,23) and locking device (24,25) and opticator and supporting member (9,10,11), light source (13,14), photomodulator (16,17) and code device (26), electric supply installation (27) are connected by being electrically connected cable.

18. display device according to claim 1, it is characterized in that in the zone of framework (2), having an inductor at least, variation according to its visual angle when observer's moving-head transmits to code device (26), so that revise photomodulator (16,17; 31,32; 33,34; 41,42; 52) coded message.

19. display device according to claim 1 is characterized in that, framework (2) can be selectively and at least one sound signal device combination, the output of sound signal and each photomodulator (16,17; 31,32; 33,34; 41,42; The code synchronism conversion of the wave front 52).